Climate and carbon cycle changes from 1850 to 2100 in MPI‐ESM simulations for the Coupled Model Intercomparison Project phase 5 MA Giorgetta, J Jungclaus, CH Reick, S Legutke, J Bader, M Böttinger, ...
Journal of Advances in Modeling Earth Systems 5 (3), 572-597, 2013
1747 2013 Arctic amplification dominated by temperature feedbacks in contemporary climate models F Pithan, T Mauritsen
Nature geoscience 7 (3), 181-184, 2014
1424 * 2014 Quantifying climate feedbacks in polar regions H Goosse, JE Kay, KC Armour, A Bodas-Salcedo, H Chepfer, D Docquier, ...
Nature communications 9 (1), 1919, 2018
447 2018 Mixed-phase clouds cause climate model biases in Arctic wintertime temperature inversions F Pithan, B Medeiros, T Mauritsen
Climate dynamics 43, 289-303, 2014
170 2014 Role of air-mass transformations in exchange between the Arctic and mid-latitudes F Pithan, G Svensson, R Caballero, D Chechin, TW Cronin, AML Ekman, ...
Nature Geoscience 11 (11), 805-812, 2018
142 2018 Climate model biases in jet streams, blocking and storm tracks resulting from missing orographic drag F Pithan, TG Shepherd, G Zappa, I Sandu
Geophysical Research Letters 43 (13), 7231-7240, 2016
118 2016 Process drivers, inter-model spread, and the path forward: A review of amplified Arctic warming PC Taylor, RC Boeke, LN Boisvert, N Feldl, M Henry, Y Huang, ...
Frontiers in Earth Science 9, 758361, 2022
82 2022 Impacts of orography on large-scale atmospheric circulation I Sandu, A van Niekerk, TG Shepherd, SB Vosper, A Zadra, J Bacmeister, ...
npj Climate and Atmospheric Science 2 (1), 10, 2019
81 2019 Impacts of parameterized orographic drag on the N orthern H emisphere winter circulation I Sandu, P Bechtold, A Beljaars, A Bozzo, F Pithan, TG Shepherd, A Zadra
Journal of Advances in Modeling Earth Systems 8 (1), 196-211, 2016
76 2016 Multimodel evidence for an atmospheric circulation response to Arctic sea ice loss in the CMIP5 future projections G Zappa, F Pithan, TG Shepherd
Geophysical Research Letters 45 (2), 1011-1019, 2018
68 2018 Select strengths and biases of models in representing the Arctic winter boundary layer over sea ice: the Larcform 1 single column model intercomparison F Pithan, A Ackerman, WM Angevine, K Hartung, L Ickes, M Kelley, ...
Journal of advances in modeling earth systems 8 (3), 1345-1357, 2016
54 2016 The July 2019 European heat wave in a warmer climate: Storyline scenarios with a coupled model using spectral nudging A Sánchez-Benítez, H Goessling, F Pithan, T Semmler, T Jung
Journal of Climate 35 (8), 2373-2390, 2022
33 2022 Improving a global model from the boundary layer: Total turbulent energy and the neutral limit P randtl number F Pithan, W Angevine, T Mauritsen
Journal of Advances in Modeling Earth Systems 7 (2), 791-805, 2015
32 2015 Following moist intrusions into the Arctic using SHEBA observations in a Lagrangian perspective SM Ali, F Pithan
Quarterly Journal of the Royal Meteorological Society 146 (732), 3522-3533, 2020
26 2020 Arctic amplification of precipitation changes—The energy hypothesis F Pithan, T Jung
Geophysical Research Letters 48 (21), e2021GL094977, 2021
23 2021 Asian water towers: more on monsoons F Pithan
Science 330 (6004), 584-585, 2010
23 2010 Comments on “Current GCMs' unrealistic negative feedback in the Arctic” F Pithan, T Mauritsen
Journal of climate 26 (19), 7783-7788, 2013
20 2013 Nudging allows direct evaluation of coupled climate models with in situ observations: a case study from the MOSAiC expedition F Pithan, M Athanase, S Dahlke, A Sánchez-Benítez, MD Shupe, A Sledd, ...
Geoscientific Model Development 16 (7), 1857-1873, 2023
14 2023 Warm air intrusions reaching the MOSAiC expedition in April 2020—The YOPP targeted observing period (TOP) G Svensson, S Murto, MD Shupe, F Pithan, L Magnusson, JJ Day, ...
Elementa: Science of the Anthropocene 11 (1), 2023
12 2023 Overview: quasi-Lagrangian observations of Arctic air mass transformations – introduction and initial results of the HALO–( M Wendisch, S Crewell, A Ehrlich, A Herber, B Kirbus, C Lüpkes, M Mech, ...
Atmospheric Chemistry and Physics 24 (15), 8865-8892, 2024
8 2024 
Thomas JungHead of Climate Dynamics at Alfred Wegener Institute (AWI); Professor at the University of BremenVerifisert e-postadresse på awi.de